key: cord-0719410-9b90rxlz
authors: Kim, Jongkyu; Jung, Jiwoong; Kim, Tae Ho; Kang, Naree; Choi, Hanzo; Oh, Dong Hyun; Ahn, Mi Young; Kim, Su hyun; Hahm, Chorom; Lee, Young Kyong; Park, Keunhong; Hong, Kiho; Choi, Jae-phil
title: Pneumonia-targeted lopinavir/ritonavir-based treatment for patients with COVID-19: an early-period retrospective single center observational study
date: 2021-09-14
journal: BMC Infect Dis
DOI: 10.1186/s12879-021-06588-5
sha: 955cd1d5d7e90c1a156e426115945ff83a03ec06
doc_id: 719410
cord_uid: 9b90rxlz

BACKGROUND: Robust evidenced treatment strategy for Coronavirus disease 2019 (COVID-19) has not been established yet. Early, targeted, comprehensive management approach can be essential. METHODS: A lopinavir/ritonavir (LPV/r)-based antiviral treatment was administered to the patients with computed tomography (CT)-documented pneumonia. Medical records of patients with COVID-19, previously discharged or hospitalized for ≥ 21 days at the Seoul Medical Center from January 29 to April 15, 2020 were reviewed to analyze clinical and virological outcomes. Patients were divided into two groups (PCR-Negative conversion group vs. Non-negative conversion group and requiring oxygen group vs. Non-requiring oxygen group). RESULTS: In total, 136 patients with a mean age of 41.8 ± 18.2 years were included with median 3-day delay of hospitalization after illness. Thirteen (9.56%) were initially asymptomatic, and 5 (3.67%) were persistently asymptomatic. Eighty-five (62.5%) had CT-documented pneumonia, 94% of whom received LPV/r treatments. A total of 53 patients (38.97%) had negative polymerase chain reaction (PCR) results within 28 days. Eight (9.4%) out of 85 pneumonic patients received oxygen supplementation. Patients with initial lower respiratory symptoms showed significant delay in PCR negative conversion (> 28 days) (odds ratio [OR] 0.166; 95% confidence interval [CI] 0.067–0.477; P < 0.001). However, antiviral treatment for pneumonic patients was significantly related with early conversion within 28 days (OR 3.049; 95% CI 1.128–8.243; P = 0.028). Increasing age increased the likelihood of oxygen supplementation requirement in the pneumonic patient group (OR 1.108; 95% CI 1.021–1.202; P = 0.014). CONCLUSIONS: Early, pneumonia targeted LPV/r-based antiviral therapy resulted in a significantly higher probability of negative conversion of PCR within 28 days compared to symptomatic treatment.

healthcare systems are able to cope with the sudden rise in patient volumes [1] . Reported clinical outcomes in cities outside Wuhan have varied; with data from Beijing indicating that 17.6% of patients were categorized as having severe pneumonia, and showing a 0.9% reported fatality rate [2, 3] and, 8.8% of patients were transferred to intensive care units in Shanghai [4] . Another study used data from three Chinese cities to compare patients of moderate severity (74%) with severe or critical patients [5] .

Early case series from the Korean Cohort Study showed that 21.4% of patients received oxygen therapy, with no requirement for mechanical ventilation [6] . In Daegu and the Gyeongbuk area, Republic of Korea, substantial community outbreaks were linked to a large religious meeting. This crisis temporarily exceeded the capacity of the previously well-functioning healthcare system and resulted in a case fatality of 94% all national death [7] . Hospitals in the metropolitan Seoul also had to provide medical services to increasing number of patients with COVID-19 including 97 cases from a call center outbreak, many small sized cluster outbreaks, imported cases, and their contacts [8] .

Here, we present the early period clinical outcomes of a pneumonia targeted lopinavir/ritonavir treatment for patients with COVID-19 in one of largest COVID-19-dedicated hospital in Seoul. We investigated the risk factors associated with prolonged viral detection or disease progression requiring oxygen supplementation.

Seoul Medical Center is a 623-bed municipal general hospital located in northeastern Seoul. Ten national designated high-level negative pressurized isolation unit (HLIU) beds were activated once treatment began for the fifth patient with COVID-19. As nationwide outbreaks increased, to counteract the medical surge in metropolitan Seoul, all in-patient beds were mobilized, and all previously hospitalized patients were evacuated to other affiliated hospitals. To block air recirculation and to supply 100% of the outer air into a ventilation system, 109 isolation rooms were equipped with portable negative pressure machines. Through elevator control, a one-way entrance and exit system was designed, video monitoring systems operated in each room, and an intensified electronic medical chart monitoring system was established, which included a modified early warning score (MEWS), oxygen saturation, and fever monitoring [9] . Multi-disciplinary specialist doctors working as attending physicians, and nursing staff volunteered to treat hospitalized patients with COVID-19. Ten previously activated HLIUs were used as intensive care units (ICUs).

At the ED, chest X-ray, chest low-dose computed tomography (LDCT) scans, and laboratory assessments were undertaken for all patients diagnosed with COVID-19 due to severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. The patients were then categorized for admission to the ICU or a general ward using MEWS.

An in-hospital electronic medical record monitoring system (recording daily MEWS, oxygen saturation and fever monitoring, scheduled plain chest radiograph imaging, and alerts by one radiologist; YKL, with 20 years of clinical experience of thoracic imaging) was used to monitor patients showing signs of acute deterioration.

Antiviral agents were prescribed for patients with pneumonia, which was documented on an initial chest computed tomography (CT) scan, to reduce the severity of the disease or clinical deterioration. Lopinavir/ritonavir (LPV/r) 400 mg/100 mg twice daily was administered as a first line regimen [10] . If this regimen was contraindicated or not tolerated, it was replaced with hydroxychloroquine 400 mg once a day. The treatment duration was determined according to the clinician's decision either for 7 or 10-14 days. A 10-day course of remdesivir clinical trial was also performed for consenting patients with radiologically confirmed pneumonia [11, 12] . Ciclesonide, two puffs, twice daily inhalation was used as an adjuvant treatment, as indicated by the attending physician [13] .

Out of the 619 confirmed COVID-19 cases in Seoul, 251 patients with mild-moderate to severe COVID-19 were treated at the Seoul Medical Center by April 15, 2020. In this study we retrospectively analyzed acute in-hospital clinical outcomes in a single-center from January 29, 2020 to April 15, 2020. The study comprised of data of 140 SARS-CoV-2-infected polymerase chain reaction (PCR)-confirmed patients, who had been discharged from the Seoul Medical Center or had been hospitalized for ≥ 21 days.

Investigators reviewed data in relation to all epidemiological and demographic patient characteristics, underlying co-morbidities, days from initial symptoms to admission, initial symptom manifestations or signs, laboratory data and radiological findings. Symptoms were categorized as asymptomatic, general (fever, chill, and myalgia), upper respiratory (sore throat, rhinorrhea, and nasal congestion), lower respiratory (cough, sputum, dyspnea, and chest discomfort), or others. The use of antiviral agents, PCR-negative conversion as a virological outcome, and clinical outcomes including the need for nasal oxygen supply, high-flow nasal cannula (HFNC), ventilator support, in-hospital days and case fatalities were assessed.

All the patients were diagnosed and serially followed using real-time reverse transcription PCR assays for the SARS-CoV-2 E gene and RNA-dependent RNA polymerase gene from sputum and nasopharyngeal specimens, using a PowerChek 2019-nCoV Real-time PCR Kit (Kogene Biotech, Seoul, South Korea). Negative conversion of both sputum and nasopharyngeal specimens for two consecutive days was considered as viral clearance. Observed PCR-negative conversion duration was defined as the duration from the symptom onset to the PCRnegative conversion for discharged patients. Patients hospitalized for > 21 days or transferred to other facilities without PCR-negative conversion were regarded as censored cases and the last hospital day was used to calculate observed duration.

The presence of any ground-glass opacity (GGO) or consolidation in the bilateral peripheral posterior lungs on chest CT scans without any other specified causes or pathogen in a COVID-19 confirmed patient was categorized as CT-documented COVID-19 pneumonia [14, 15] . Clinical deterioration or disease progression was defined as following conditions after treatment for ≥ 3 days; (1) persistent or newly developed fever, (2) radiological aggravation of a previous lesion or newly developed opacity and (3) requiring oxygen therapy or vasopressor.

Continuous variables were represented as mean and standard deviation (SD) or median and inter-quartile ranges (IQR). The one-sample Kolmogorov-Smirnov test was performed to check the normality of all variables. The patients were divided twice into two groups (first, PCR-Negative conversion group vs. Non-negative conversion group and then requiring oxygen group vs. Nonrequiring oxygen group). To compare the two groups, Mann-Whitney U test was used for continuous variables and chi-square or Fisher's exact test was used for categorical variables. Statistically significant variables were chosen from the comparison of the two groups and multiple logistic regression analyses were performed to identify the clinical variables associated with negative conversion and oxygen requirement.

All statistical analyses were performed using the SPSS statistical software version 25.0 (IBM Corp., Armonk, NY, USA). P values were based on a two-sided significance level of 0.05.

From January 29, 2020 to April 15, 2020, 136 out of 140 PCR-confirmed patients with COVID-19, who had been discharged or had been hospitalized for > 21 days were included in this analysis (Fig. 1 ). The median time between symptom onset and the first antiviral treatment was 3 days. LPV/r was administered to 80 (94%) patients and, 86% of them completed the regimen without serious adverse events or clinical progression. Eight (10%) of 80 patients were switched to hydroxychloroquine due to adverse events (diarrhea or nausea, elevation of alanine aminotransferase, amylase, or creatinine kinase). In four (5%) patients, LPV/r was switched to remdesivir due to clinical deterioration. One patient on remdesivir discontinued treatment because of bradycardia and changed to LPV/r.

The mean patient age was (41.8 ± 18.2) years, 48.5% of whom were male. Thirteen (9.56%) patients reported no symptoms until the day of admission, and 3 of these were found to have pneumonia on an initial chest CT scan. A total of 5 (3.97%) out of 13 asymptomatic patients persistently remained asymptomatic during the entire inhospital stay and the remaining 8 patients complained of newly developed cough, fever, headache, or sore throat within 2 days after admission.

The median observed duration from symptom onset to PCR-negative conversion was 29 days. At the time of analysis, 56% of the patients had been discharged and released from quarantine.

The PCR-negative conversion group included more patients with neurological disorder (15.1% vs 3.6%) than the non-negative conversion group (Table 1) . Lower respiratory symptoms were less (11.3% vs 43.4%) and CT scan documented pneumonias were more common (77.4% vs 53.0%) in negative conversion group than the others. Otherwise including admission delay or initial laboratory findings were comparable ( Table 2) .

Among 85 pneumonic patients out of 136 patients, 8 (9.4%) required oxygen supplementation ( 

A multivariate analysis revealed that patients who had presented with initial lower respiratory symptoms showed significantly lower odds ratio (OR) of virological negative conversion within 28 days (OR 0.166; 95% CI 0.061-0.454; P < 0.001) ( Table 4 ). However, antiviral treatment for pneumonia (OR 3.049; 95% CI 1.128-8.243; P = 0.028) revealed increased likelihood of viral clearance. Final adjusted logistic model of the pneumonic patients requiring oxygenation showed that the likelihood of oxygen supplementation increased by 1 year (OR 1.108, 95% CI 1.021-1.202; P = 0.014) ( Table 5 ).

Robust, evidenced treatment strategy for Coronavirus disease 2019 (COVID- 19) has not been established yet. In this study, we presented the early period treatment outcomes of patients in one COVID-19 dedicated hospital involving a wide range of citizens in the Seoul metropolitan area. Rapid case detection and immediate hospital admission, CT scans to identify the patients at a risk of pneumonia, intensive monitoring, and early pneumonia targeted LPV/r-based antiviral treatment constituted the treatment strategy for patients with COVID-19.

A total of 90.4% of the patients were in the symptomatic group; among them 65.6% had CT documented pneumonia and 7.0% received oxygen treatment. In otherwise initially asymptomatic patients, 5 (3.97% of total) patients remained persistently asymptomatic during their entire hospital stay, and these patients would not have been detected using the current symptom-based surveillance system. LPV/r, chymotrypsin-like protease inhibitor-based antivirals, were administered to patients with CT-documented COVID-19 pneumonia in our cohort. LPV/r was well tolerated in 81.3% of patients without serious adverse events or clinical deterioration, which required alteration to their medication. LPV/r-based randomized controlled study for severe COVID-19 pneumonia failed to show a reduction in the clinical improvement time [16] . In LPV/r arm, a numerically lower but not statistically significant 28-day mortality rate was observed with 13% of discontinuation. In our study, we did not use clinical improvement as an outcome, so it is hard to compare both studies. We agree with a claim that a median 13-day delayed randomization from illness onset to subsequent antiviral initiation is too late in terms of virus-host interaction and that considerable tissue damage could occur in patients (median lactate dehydrogenase level of 325 U/L; interquartile range, 245-433 U/L) [16, 17] . However, the median delay from the initial symptom to admission and subsequent antiviral treatment was 3 days and the median lactate dehydrogenase level was 243 (interquartile range 209-297) U/L in our study.

An early report from Wuhan by Zhou et al., which included non-survivors, showed that the median duration of SARS-CoV-2 shedding was 20 days [18] . Data from 113 symptomatic patients in a study by Xu et al. indicated that the median duration was 17 days [19] . The risk factors of prolonged virus shedding, which was defined as ≥ 15 days, included male sex, old age, hypertension, admission delay, severe illness at admission, invasive mechanical ventilation, and steroid treatment. [20] . The median observed duration of PCR-negative conversion in our study was 29 days, which was 12 days longer than that reported by Xu et al., but which was consistent with Zhou et al. 's findings. We arbitrarily used the median observed duration, which comprised of viral clearance days and the last hospital day for patients hospitalized for > 21 days. We noticed that patients who initially presented with lower respiratory symptoms were significantly associated with a prolonged PCR-positive duration, whereas antiviral treatment in the presence of pneumonia resulted in a significantly higher probability of negative conversion within 28 days than symptomatic treatment only. Although longer viral shedding itself is not related with clinically severity, a longer duration of virus detection negatively affects public health, medical resource use, and the patient's socioeconomic well-being. Some randomized controlled trials are currently underway, in which antiviral agents are being administered to patients in a mild COVID-19 group, for which our data are likely to provide support.

Increasing age was the significant risk factor for oxygen requirement. Cardiopulmonary or neurological comorbid diseases did not associate with the progression of the disease.

This study has some limitations. Firstly, this was a retrospective study to describe clinical experiences at the early stage COVID-19 outbreak in Seoul area; hence, the clinical efficacy of the pneumonia targeted LPV/r treatment cannot be elucidated. Secondly, some unrecognized confounders might have affected our results because our study was based on a relatively small population compared with the entire number of patients with COVID-19 in Korea, and our patient outcome findings were derived from a single center. However, the age distribution of the patients with COVID-19 in our cohort was representative of patients residing in Seoul. Thirdly, our population included a relatively small number of serious cases. Some critically ill patients and some mild cases may have been missed due to quarantine at other dedicated hospitals or community isolation centers.

In conclusion, early comprehensive interventions including LPV/r-based treatment for COVID-19 pneumonia could be safely deployed. The median observed duration between symptom onset and viral PCR-negative conversion was 29 days. Patients with initial lower respiratory symptoms were associated with a prolonged positive PCR (> 28 days). Antiviral treatment on CT documented pneumonic patients may hasten negative conversion. A future randomized controlled trial of early administration of antiviral drugs is needed to validate these findings. Oxygen saturation should be monitored closely in older patients due to increased risk of disease progression. 

Impact of non-pharmaceutical interventions (NPIs) to reduce COVID-19 mortality and healthcare demand

Clinical features of patients infected with 2019 novel coronavirus in Wuhan

Characteristics of COVID-19 infection in Beijing

Clinical progression of patients with COVID-19 in Shanghai

COVID-19 with different severities: a multi-center study of clinical features

Clinical course and outcomes of patients with severe acute respiratory syndrome coronavirus 2 infection: a preliminary report of the first 28 patients from the Korean Cohort Study on COVID-19

Epidemiology and Case Management Team, Korea Centers for Disease Control and Prevention. Early Epidemiological and Clinical Characteristics of 28 Cases of Coronavirus Disease in South Korea

Coronavirus disease outbreak in call center

Validation of a modified Early Warning Score in medical admissions

Treatment options for COVID-19: The reality and challenges

Current knowledge about the antivirals remdesivir (GS-5734) and GS-441524 as therapeutic options for coronaviruses

Compassionate use of remdesivir for patients with severe COVID-19

Therapeutic potential of ciclesonide inahalation for COVID-19 pneumonia: Report of three cases

CT imaging features of 2019 novel coronavirus (2019-nCoV)

Chest radiographic and CT findings of the 2019 novel coronavirus disease (COVID-19): analysis of nine patients treated in Korea

A trial of lopinavirritonavir in adults hospitalized with severe COVID-19

COVID-19 -The search for effective therapy

Clinical course and risk factors for mortality of adult inpatients with COVID-19 in Wuhan, China: a retrospective cohort study

Factors associated with prolonged viral RNA shedding in patients with coronavirus disease 2019 (COVID-19)

Duration of viral shedding of discharged patients with severe COVID-19

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We would like to extend our warm thanks to the members of the Seoul Medical Center Fight 

No funding sources to declare.

The datasets used and/or analysed during the current study are available from the corresponding author on reasonable request.

This study was approved by the Institutional Review Boards of Seoul Medical Center (2020-04-035). The consent to participate was waived due to the retrospective observational nature of the study.

Not applicable.

The authors declare that they have no competing interests.